Musical instrument having a ribbed surface

ABSTRACT

The invention relates to a musical instrument with which a sound is produced in the same manner as when playing the guiro (Latin American percussion instrument: longish gourd having a regularly notched surface) by scratching with the finger nail or by playing with a playing aid. In contrast to the guiro or also to the percussion instrument called a washboard, sound rows can be made of individual modules or sections. Playing in a constant tempo enables the production of analogous rhythms due to the constructed interval ratios and scales can be produced by combining different frequencies. Particular embodiments of the instrument and of the playing aid made of different materials produce many nuances in sound that challenge the creativity and the curiosity of the player even more. Possible materials include wood, paperboard, plastic, rubber, metal, ceramics and stone.

PRIOR ART

Musical instruments produce sound waves by means of vibration and reinforce them via a resonator. Sound waves are triggered by vibrating strings, air columns, diaphragms or plates. Ribbings, as a further possibility for producing sound are used, in particular, in the case of sound instruments.

By definition, a musical instrument is an implement for producing notes and sounds, in order to make music. It is distinguished by the fact that at least one player actively operates it and thereby creates music.

Sounds can be stored mechanically, magnetically or optically in the form of prepared surfaces and can be reproduced. The possibilities of producing sounds by means of prepared surfaces are also known in road building (Pat. A1 WO 01/32989 and others). However, these applications do not involve a musical instrument in the actual sense, but rather a type of sound-recording medium which, similar to a record, is played by moving over it. In these cases, no creative activity by the consumer is expected.

DESCRIPTION OF THE INVENTION

In the case of the musical instrument according to patent claim 1, a sound is produced in the same manner as when playing the “Guiro” (FIG. 1), a Latin American rhythm instrument comprising a longish gourd having a regularly notched surface, by scratching it with the fingernail or playing it with a playing aid. In contrast to the “Guiro” or else to the percussion instrument “skiffle board”, in the case of the musical instrument according to the invention, relative sounds can be built up from individual modules or sections. Musical instruments therefore also differ from sound-recording media, such as the record or road grooves which can be moved over, which are based on the same principle as producing sound, in precisely the same manner as an electric piano differs from a radio. The transverse grooves on the carriageway produce sounds, notes and sequences of notes in interaction with the tires of vehicles traveling over them. However, the recipient, as in the case of the radio set, can only have an effect on the creation to a very limited extent: drive over it versus not drive over it or switch on versus switch off. For this reason, the use of the corresponding sound production principle on public roads does not involve a musical instrument in the actual sense.

Playing the musical instrument according to the invention at a constant tempo makes it possible to produce analogous rhythms, on account of the interval ratios which are present, and also sequences of notes, by combining different frequencies. The playing and combining of excerpts of created rows of sounds and the combination with different musical instruments makes musical composition techniques, such as sampling, pattern technique and Minimal Art come alive. As a result, in addition to the playing and entertainment value, the instrument has a high pedagogical value. In contrast to the use on roads, the combination of modules is creatively designed and changed by the players themselves.

Particular embodiments of the instrument and of the playing aid in different materials produce many nuances in sound which additionally challenge the creativity and curiosity of the player. Possible materials are: wood, cardboard, plastic, metal, ceramic, stone. A further embodiment of the invention constitutes the virtual realization on a viewing screen. The instrument can then be sold on CD or can be accessible on the Net.

LIST OF FIGURES

FIG. 1 Guiro

FIG. 2 instrument for scratching

FIGS. 3 a-k individual modules

FIG. 4 ribbings

FIG. 5 module

FIG. 6 coupling piece

DESIGN OF THE INSTRUMENT

The musical instrument comprises sections or modules having a regularly ribbed or studded surface. These ribbings may differ in design (FIG. 4), since their shape is not crucial for the sound. A critical factor for the frequency which arises at a constant tempo x is the wavelength of the ribbing.

Rhythmic rows of sounds can be built up from individual sections and spaces or from combinations of the modules. If a plurality of wavelengths are used, melodically rhythmic rows of sounds are produced in combined form. The instrument is designed in various forms:

-   (1) As a band or strip of cardboard or plastic, so that it can be     cut to a desired length, for example, from the roll by the user     himself. The different frequencies may be identified by a different     color in each case. For easier fixing on a base, the band may be     equipped with an adhesive device and, as an orientation aid for     cutting it into lengths, may be provided with a graduation. -   (2) As modules having different ratios of ribbed and unribbed     surface (FIGS. 3 a-k). These modules can be connected rigidly to a     coupling, specifically in such a manner that the modules can be     connected both to opposite sides and also to the same sides. The     modules may be formed from wood, cardboard, metal, plastic, rubber,     ceramic or stone. The connection may be designed, for example, as an     asymmetric plug-in coupling, snap fastener or magnetic coupling or     may be realized with an additional coupling piece (FIGS. 5-6). -   (3) As modules of identical size with ribbed surfaces in different     frequencies or frequency variations. These modules may be connected     to one another longitudinally and/or laterally. Rows of sounds or     entire areas may be built up with them. -   (4) As modules with a square cross section and longitudinal sides     with different ribbings. By fixing them in a rail, new musical     results can be obtained by simple rotation and displacement of     individual modules.

The rows of sounds which are formed from different sections or modules may be played with the fingernail, but also with a playing aid. This playing aid is a pencil, a resilient pointer, a slider or a roller of wood (e.g. an ice lolly stick), plastic (e.g. a credit card), metal (e.g. a teaspoon), horn or cardboard which snaps into the ribbing in a rapid sequence corresponding to the playing tempo and thereby produces the sound. The playing aid can be moved over the row of sounds held in the hand or else clamped into a slide or carriage. A different sound is produced depending on the material, size, shape and manner of fixing the playing aid. The dimensions of the modules, in particular the width thereof, do not have any decisive effect on the phenomenon on which the invention is based. Solutions which are played by means of skateboards, pushchairs etc., are therefore also conceivable.

In a software variant, the geometrical features are expressed pictorially. The surface of the instrument has virtual ribbing, with it being possible for the virtual ribbing to be illustrated by different coloring of the high and low regions of the ribbing, or more precisely, different coloring of the ribbed and of the flat regions. In side view, the ribbings may, of course, also be illustrated geometrically, but do not have to be. The underside of the modules is then stuck on a virtual table or a virtual resonator. The individual modules may be cut to length, for example with the aid of the computer mouse, scissors or a knife, with it being possible for the grid of the graduation to be configured in such a manner that cutting can only take place along the grid lines. In exactly the same way as in the hardware version, the different frequencies are emphasized by different coloring. Opposite sides A and B have a matching, mirror-inverted coupling. The realization of a magnetic coupling then means that the modules are attracted towards one another in a manner suitable for their poles as soon as they have been pushed sufficiently close toward one another with the mouse. It is possible to influence the sound by means of different playing aids and different bases.

It is also conceivable that the computer can be used to place one's own sound samples (via a microphone or line input) or samples from data files onto the modules. There is then, firstly, the possibility of placing a sound onto the entire set of modules, but also the variant that an entire song is loaded onto a long, ribbed strip which then, cut into sections, can be combined in new ways. 

1-14. (canceled)
 15. A musical instrument comprising a surface, wherein at least part of said surface has a regular or an irregular structure.
 16. The musical instrument of claim 15, wherein said regular or irregular surface comprises a ribbing and wherein said ribbing is wavy, rectangular, triangular or a combination thereof.
 17. The musical instrument of claim 16, wherein wavelengths of said ribbing are between 0.001 mm and 250 mm.
 18. The musical instrument of claim 17, wherein said wavelengths are between 1 mm and 12 mm.
 19. The musical instrument of claim 17, wherein said wavelengths are 3, 6 or 12 mm.
 20. A method of producing the musical instrument of claim 15, wherein the musical instrument is cut from a roll to a desired length.
 21. A roll comprising the musical instrument of claim 15, wherein the roll is provided with at least one graduation or predetermined breaking point to produce a musical instrument of the desired length.
 22. The musical instrument of claim 15, wherein said instrument can be fixed by means of its configuration onto an appropriate base in a rail, a mount or by means of an adhesive device.
 23. The musical instrument of claim 15 comprising different frequencies, wherein said frequencies are identified by different colors.
 24. The musical instrument of claim 15, wherein said instrument comprises combinable modules.
 25. A module for a musical instrument having a surface, wherein at least part of the surface of the instrument has a regular or an irregular structure, said module comprises two opposite sites A and B and a coupling on each of said opposite sites, and wherein said module can be rigidly connected to one or more further modules via said couplings.
 26. The module of claim 25, wherein said module can be connected to opposite sites A or B of said one or more further module via either site A or B of said module.
 27. The module of claim 25, wherein (a) the entire surface of said module is ribbed, (b) ½ of the surface of said module is ribbed and the other half is flat, (c) the surface of the module is alternately ¼ ribbed, ¼ flat, ¼ ribbed, and ¼ flat; (d) ¼ of the surface of the module is ribbed and ¾ are flat, (e) ¾ of the surface of the module are ribbed and ¼ is flat, (f) ¼ of the surface of the module is ribbed, ¼ is flat and the rest is ribbed, (g) ¼ of the surface of the module is flat, ¼ is ribbed and the rest is flat, (h) ¼ of the surface of the module is ribbed, ½ is flat and the rest is ribbed, (i) ¼ of the surface of the module is flat, ½ is ribbed and the rest is flat, (j) the entire surface of the module is flat, or (k) there are individual ribs on the surface of the otherwise flat module.
 28. The module of claim 25 comprising a guide for stabilizing a device for holding a playing aid, wherein said guide is oriented transversely to a ribbing on the surface on the module.
 29. The module of claim 28, wherein the guide also permits curves and branches.
 30. The module of claim 25 comprising four sides A, B, C and D and a coupling on each of said four sides A, B, C and D, wherein the module can be rigidly connected in any desired direction to another module via said couplings. 